Balancing apparatus



March 30 1926.

1,578,831 E. A. KEELER BALANCING APPARATUS I Filed May '7. 1920 2 Sheets-Sheet 1 1 N VENTOR.

m/LM.

March 30 1926.

' E. A. KEELER 'BALANCING APPARATUS 2 Sheets-Sheet 2 Filed May '7 1920 Patented Mar. 30, 1926.

U ITEo- STATES PATENT o en.)

' EARL A. xEnLnmdPNonms'rowN, PENNSYLVANIA, ASSIGNOR T LEEDS & Noxvrn- 3UP conPANY, or PHIL DELPHIA, PENNSYLVANI A,-A CORPORATION or IBENN- sYLVAN A.

pucatiBn filed May 7,

['0 all NJ/wilt it may concern: V p H Be it known that I, E RL 'A. LEELER, a citizen of the United States, residing -1-n Norristown, county of Montgomery, State 6 of. Pennsylvania, have invented certain new and useful Improvements in Balancing Apparatus, of which the following is a--speci-. fication.

' My invention resides in electrical apparatus 10 for controll1ng,'as by maintaining in a state of balance, a lever, deflecting member or other mechanieal element or system of elements, or equivalent.

My invention resides further in apparatus of the character: referred to in" which the My invention resides further in apparatus of the character referred to comprising orassociated with. means effecting, if desired, a varying rate of motion or action of the counter-balancing mechanism; and more particularly for effecting action or motion of the counter-balancing means proportional to the degree-0r extent of deflection of the lever, deflecting member or, the like.

My invention resides further in apparatus ofthe character referred to comprising a galvanometer controlling the apparatus effooting control or balancing of the lever, defleeting member or the like, said galvanom- ,36' eter being in turn controlled as to its deflection by electrical means responsive to changes in position of the lever, deflecting member or the like. My invention resides also in apparatus 40 comprising an impedance bridge, and fur-i.-

ther in such bridge in combination with the lever, deflecting member or the like.

My invention resides also in apparatus for measuring the flow of fluids, or for measuring any other suitable quantity,-

terms of current employed for controlling or re-balancing the lever or deflecting member, to which is applied a force dependent upon the magnitude of flow of fluid, or upon any other magnitude, automatic means, controlled by a galvanometer, effecting the con.-

trol orbalance of the lever or deflecting member, and in addition effecting measuring I BA ANcrNe APPARATUS.

1920. serial No. 379,464-

forms my invention may take, reference is in wliich: 1

Fig.1 is a diagrammatic view of electrical features of my inventiom Fig; 2 is a fragmentary diagrammatic view illustrating a modified form of impedto be had to the accompanying drawings,

ance bridge.

3 is a fragmentary diagrammatic view illustrating a modificationof the electricalmeans responsive to movement or unbalancing of the lever or deflecting member;

Fig. 4 is a modification of the arrangement indicated in Fig. 3. I

Fig 5 is a fragmentary diagrammatic view of a-modi'fied structure suitable for an impedance bridge;

Figafi is a fragmentar diagrammatic View of an arrangement utilizable with ap-' paratus involving .the principle of Figs. 3; and .4. d r so Fig. -7 is a fragmentary diagrammatic"- view of a modification suitable for use with apparatus embodying the principle of Figs. 3and'4. 4 4

Fig. -8"is a further modification of apparatus controlled in response to movement or, deflection of thelever or deflecting member.

Fig. 9 is a perspective view of control apparatus utiliz'able in my invention.

Fig. 10 is a vertical sectional view of apparatus for controlling part of the structure of Fig. 9. p

Fig. 11 is a vertical sectional view, partly in elevation, of structure utilizable in my invention. v

Fig. 12 is a fragmentary sectional view illustratin a modification of apparatus Z shown in Fig. 11.

Referring to Fig. 1, L represents,- generi- I cally, any member movable in response to 1 0 any force, and particularly one varying in magnitude from time'to time.

In the example illustrated, the member L is a lever movable upon the fulcrum or knife edge 1 in response to a force or variation in a force, respresented by the weight or float C o-acting with the lever arm to the right of the fulcrum 1.

The force applied to the member L may be representative of or caused by the flow of a fluid, change in level or head of a fluid, or a change in any condition or quantity.

The. member. L by its "movement, as from a predetermined, neutral or balanced position, efiects a control vof automatic appa .ratus which in turn controls means for bringing the member L backto. the predetermmed position.

'orequivalent apparatus.

conductor b are cohnected .able resistance 1;, In

The apparatus controlled in response to movement of the member L for effecting control oi the automatic mechanis m maybe an impedance bridge or any other. suitable 11 11 Fig. 1' suchappa-ratus is an [impedance bi'idge-comprisingthe resistances R and R with art ofthe slide wire a in each of difieren arms of thebridge' in whose remain "ing arms are connected, respectively,

the im- In the conjugate, thesource of fluctuating or alternating currentA and tarithe other conjugate pedance coils C and C conductor oris connected, through suitable switching mechanism later to 'be,descr1bed,

tlie moving coil of agalvanometer G having the field coil 7 connected," through-Tsuitable switching mechanism hereinafter referred to, to the source A' th'rough"the conductors d and variable resistance r CO-acting'with the/coils Q and C? is the magnetizahle member or movable .core' e carriedbythe membrL. With the member L'in. any predetermined position, as in a pokalong the slide wire a rent will flow through the bnd'ge'is balanced,

the movable'coil ofthe galvanometer'G of a' I -magnitude depending upon the degree of unbalancing, and of aninstantaneous 'direc tion or phase relation causing deflection of the needle or pointer of the-galvanometer'iG to a certain ,extent' in acertain direction. With'movemento'f the member L in'opposite direction, the needle ofthe galvanometer 1 G will deflect in opposite direction, and .to an extent .dependent ,upon the degreeot impedance bridge, whichin turn efi'ects c'onmovementof the memberL v Accordingly the member controls the ksuch, for example,

avage! trol of the galvanometer, which latter isemployed to eflect control of any suitable mechanlsm. ,4 g i As a modification of the impedance bridge, there may beemployed structure of the character indicated in Fig: 2, where the bridge per se is similar to that shown in Fig. -1, but

the galvanometer Gin thiswcase may be a 1 direct current galva'nometen and there may beem'pRyedinthe eonju ate conductor 1) a source of direct current D, in series with whichis an i terrupter mechanism It periodicallylactuated by the cam i, producing a pulsatory current; The mode of actionis similar, however, inthat the movement of the core e upon member I] changes the impedance or inductance of'thecoils G and G unbalancin the bridge and causing deflectionmtth 'g alt anometer G in one direction or the other as the member 6 moves in'the one direction or the'iothenand the extent of deflection of th'e galvafiometer being v large or small, as the deflection of the ,mer nber L is large or. small.

lieu of the impedance bridge there may be employed any other suitable arrangement, .'as that indicated in Fig. 3, in which the ma etizable member e, movable with the mem er L, moves in the space between the core structures 7' and jon which are disposed, respectively, kv and k energized from fluctuating or alter ating current. Upon the core structures are disposed also the secondary WiIldlIigS m and m connected in series with the movable coil of the alternating currentrgalvaiiometer G, gized from the'source A.. When the member enis in the neutralv or predetermined position,

the electro-motive' forces induced in the'coils *m. and m are equal andv opposite, and there is no deflection of the galvanometer G. When the member 6' approaches one core whose field f is ener-' the primary coils the source A ofstructure and recedes from the other, the

balance is upset, and one or the other of the secondaries on or m produces a greater 'elec-' 7 tro-motive-force. than the other, causing a deflection of thegalvanometer G, whose ex-,

tent is dependent upon the degree of deflection of the member 6 and whose direction of deflection depends upon the direction of v deflection of the member 6."

In Fig. 4 the arrangementis similar'in principle. In this case, however, the galvanometer G may be of a directcur'rent'type, the coils k and ru ter' 72. actuated .by cam i. I

n' Fig. 5-is indicated a modficationv utilizable in connection with the impedance bridge,- wherein the impedance coils G, C are disposed nponia core structure having poles with respect to which the member e moves, the member e also approaching closely to that part of the yoke structure.joiningthe 70 connected in circuit with the source of direct currentD and the interv 'difi'ere'nt poles. In this case again movement of the member 6 changes the inductance of the coils C, C and affects the bridge.

In Fig. 6 is' an arrangement of the primary and secondary 0011s of Figs. 3 and 4 upon a specifically different type of core structure, whic'lr in this instancehas a .gap forming poles withrespect to which the member e moves, the member calso closely g approaching the yoke portion of the.corc structure.

In Flg. 7 is a further modification suitable for use in the arrangements of Figs. and-- 4. In this'case the primary coils hand 70.

primary coil k surrounding the vmovablc member 6, the secondary windings -'m. and m} being disposed'as before upon core structui es j and 9' between whose poles the member e is movable.

In Fig. 8 is shown a control arrangement alternative to those above described. .The

- sistance r; while. the fielthccil f of the galf vanometer issupp current from the source A-through the'adjustable resistance 1- With the member;- L in normal or balanced position, the amount of resistancer" in circuit [with the galvanometer G and secondary m is adjusted to such value that there is no deflection of the movable coil of {the galvanometer G; and the 'electro-motiveforce inducedin the secondary m'is hpposed and equal to the fall of potential across that part of the resistance 1" in circuit with the galvanometer G and secondary m resulting from the flow oi current through resistance 4" tothe primary coil In this arrangement there will be an attraction between the member 3 and'the poles-10f the core structure j; aiid thisattraction is suitably balanced by suitably counter-weighting the member L, as by applying a suitable weight thereto to the right of its fulcrum, as viewed in Fig. 1.

To re-balance the member L, as by restoring it'to apredetermined neutral or normal position, any suitable means may be em-' ployed. Preferably, however, electro-magnetlc means are utilized tooppose the force acting upon the member L, the magnitude of current employed being then a measure of the force app'ied to the member L, or of the magnitude of any condition or quantity causing or allowing movementof the member L. The same current may be utilized of F igs. 3 and 4 are supplanted by a single tcpndition or quantity represented by the o The also to control a recorderfcontrol mechanism or any other suitable means.

Referring again to Fig. 1, there is shown attached to the member ."a coil or electrom'agnet n co-acting wit a fixed coil or magnet n and connected in circuit with the coil n and the rheostat or adjustable resistance R resistance' ff, source D of direct current'and ammeter B. The source Dmay either alternating or direct; for other purposes lie-reinaftcr referred to, however, it is preferably a source of direct current. The

magnitude of reaction between-the magnetic fields produced by the coils n and .n is

graduated or adjusted by the rheostat R? to any suitable-value, particularly to a value *causing application to the member L of a force capable of balanciiig the force exerted thereon'by memberfl 6r any other means. The ammeter'B will indicate,the-magnitude delivcr current' of any suitable character,

offthe currenttraversing the coils n and n and so. serve as anindicationof the magnitude of thefoiic'e exerted by the member 2 or other-means, and maythus-serve indirectly to measureithe magnitude of the rec operating upon the member L.

The rheOstat 'R maybe and preferably is automatically adjusted by the automatic control mechanism'hereinafter described The current exciting the coils n and n traverses a resistance 7*,- whereby the difference of potential across the terminals of resistance 1' is representative of the magnitude of said current. j-

The igalvanometer G of Fig. 1, in addition to co-actingwith the above described impedance bridge or equi'valent,;is adapted" to co-act also with a potentiometer comprising the battery or source of current 0. connected in series with the variable resistance a resistance r and the potentiometer slide wire. or resistance R with which co-acts the movable contact 72- connected to one terminal of the aforesaid resistance 1 through the conductor 19 The other terminal of the resistance r connects by conductor 9 with the ,terminal 12 of a double throw switch q] adapted to be 'connectedthrough switching mechanism later to be described with one terminal of the movable coil of the galvanometer G whose other terminal is simultaneously connected through said switching mechanism and conductor 8 with the potentiometer slide'wire R When the switch 9 is thrown into its other position in engagement with the contact 9 thestand ard cell S with series resistance riis associated with the vgalvanometer- Gy and the potentiometer.

The switching mechanism controlling the connections'o'f the galvanometr Grv may comprise a plurality of disks,;as t, Fig. 1, se-' cured upon and rotated by the shaft u comprised in the automatic "mechanism herein after described.- One-half .or other suitable fraction of theperiphery of each disk It may be of insulating material, and the remainder is a contact '0'. In the position of the switching mechanism indicated in Fig. 1, the movable coil 0 the galvanometerGiis connected" in the cOn ugate conductors ofthe impedance hridggwhile its field coil fis connec ed to the source A of alternating current. In the other effective position of the switchi ng mechanism, with the switch 9 in engagement with contact p3, the movable .coilof the galvanometer G will be; connected in series etweenthe conduiitors p and s in association with the potentiometer, while its field coil 1 will be connected through conductors w and 'w 'and adjustable; resistance?" with the terminals of the source of direct our- -rent D. In the same position of theswitch- .ing mechanism, "but with the switch q ter 8 across a sistance includlng its slide wire R r n For an illustration of oneof the forms the thrown into engagement with the contact 9 the field coil fwill, asbefore, be connected to the source of direct current/D,

but the movable'coil of the galvanometer G will then be connected' in-series with the standard cell S, resistance a and conducart of] the potentiometer reautomaticcontrol mechanism may take, reference maybe had to Figs.9 and 10, in which is shown'mechanism in general similar to the mechanism shown in Leeds Patent In Fig. 9, M is'an electric motor, or any other suitable source of power, which con tinuously rotates shaft4 through the worm gearing 3. Pivoted near its? upper end is a lever 5,'back of which and pivoted upon a horizontal axis, on lever 5 is the arm 6, on

each end of which is a shoe 7 of cork or other suitable material,-frictionally engaging the rim f the clutch disk 01' wheel 9 secured upon and driving the shaftlO. Secured up on the shaft 4 is a cam- 11, which periodical- 1 1y engages the lever or member 5 and moves it outwardly away from the disk 9 in 0position to a spring, notshown, thereby lifting the shoes 7 free from the rim.8 of the clutch disk 9, the aforesaid spring return ing the shoes 7 into engagement with the rim 8 after predetermined extent of rotation of the cam 11. Upon the shaft 4 is secured a second cam 12 which, after the cam 11 has lifted the shoes 7 from the rim '8, actuates the end of finger 13 on the lower; end of the arm 14 secured at its upper endto themem- ,ber1b', pivoted at its opposite ends at 16.

To the frame or member 15 issecured by solder or screws not shown, the member 17, having the upper edges 18 inclined upwardly and laterally. Disposed immediately above the member 17 and adapted to be engaged by 65" either of the inclined edges 18, 18 is the needle or pointer 19 secured to the movable the needle 19 normally swinging freely be-- tween the edges 18 of members17 and the lower edges 22 of members 23, 23, which latter have the downwardly extending arms 25, 25, drawn towards each otherby the spring 26; Carried uponthe lower end of the arm or'lever'- 5 is the triangular plate 27 carrying the- .pins 28, 28 co-operating with the lower ends of members 25, 25. At opposite ends of the arm 6 are the ears or lugs 29, 29 adapted to be'engaged'by' the cams 30, 30 similarin shape and similarly positioned and secured upon the shaft'4.

Loosely carried by the shaft 10 is a disk or wheel 31. of insulatingmaterial, carrying uponits periphery the potentiometer slide wire resistance R which may be disposed.

in the form of a helix engaged by the aforesaid stationary contact p. a

; Loosely carried by-the shaft 10 is a second wheel or disk. 32 of insulating material, can

, rying on its periphery the aforesaid ,resistance R which may be in helical form, and engaged by the stationary contact as. Y

Referring to Fig. .10, the aforesaid disks 31'and 32' are shown as mounted upon members 33 and .34, respectively, loosely rotatable upon the aforesaid shaft '10. -On their adjacent sides the members 33 and 34'are provided with a circular series ,of notches 35- and 36-, with which co-acts the dog 37 pivoted at 38 upon the collar 39 secured by screw- 40 to the shaft 10,-the lower end of the dog 37 extending through an aperture in.

the shaft 1 0.intp the bore 41. The outer end of the dog 37 ,is biased toward position to engage in a slot 35 of member 33 by any suitable means, as'for example, a spring 41" disposed in the bore 41 between the leftend of said bore and the lower'end of dog 37. Disposed in the'bore41and engaging atits one end in a notch in the lower end of the dog 37 is the rod 42 engaging with its other end the cupped screw 43 carried'at the upper end of the arm 44 of a bell crank lever whose other arm is 45. The bell crank is v pivoted at 46 to the lower end of the downwardly extending stationary member 47, to which is secured the spring. 48 tending to thrust the screw 43 and member 42 towardthe left in opposition to spring 41*.

The aforesaid shaft u, carrying the switch disks t, has secured thereto the cam-49, with which engages the cam follower or roller carried by the arm-45 of the aforesaid bell crank. The cam 49 for substantially one.- half, or any other suitable fraction of its periphery, has a uniformly large diameter indicated at 51, and for the remainder of its peripheryhas a lesser diameter, indicated at 52, the relations of the peripheral extents of the parts 51 and 52 corresponding substantially with the peripheral extents of the conducting and insulating portions of the switch disks). 2?. a

The shaft u is driven by the motor M, shaft 4 or any other continuously rotating part of the above described mechanism. through any suitable gearin not'shown, at desired or required speedor example, the shaftu may make one complete revolution per minute. I

Referring again to Fig. 9, there is secured to or movable with disk 31 a grooved pulley or wheel 53 around which passes the cord 54 passing over the idler rollers or wheels 55 and secured to the marker or recorder pen 56 movable transversely; on guides, notshown, with respect to the recorder paper P stored upon a roller or spool 57 and having the marginal perforations 58, in which engage teeth or pins upon the periphery of the roller 59 secured upon the shaft 60 driven by shaft 4 through'worm 61, gear 62, shaft 63, worm 64 and gear 65.] Y The operation is as follows; With the switch disks t in the position indicated in Fig. 1, the moving coil of the galvanometer G is in circuit with the impedance bridge and its field f excited by alternating current. The corresponding position of the cam 49 is that indicated in Fig. 10, causing the dog 37 toengage in-a slot 36 on member 34, thereby locking the disk 32 to the shaft 10, the disk 31 in the meantime beingfree of the shaft 10 and remaining in position to which last rotated thereby.

If new the member L is deflected from its normalcrbalanced position, the impedance bridge or equivalent will be unbalanced, causing deflection of the needle 19 of the galvanometer G toward the right or the left,

Fig. 9, depending upon the direction of vmovement of the member L, and the extent of deflection of needle 19, in turn depending upon the extent of movement of the member L. I

Assuming the needle 19 to have deflected toward the right, Fig. 9, itwill be clamped, due. to upward movement of the member 15 by cam 12,between the right hand inclined edge 18 of member 17 and the lower edge 22 of the right hand member 23, causing the right hand arm 25 to be tilted on its pivot 24 in a clockwise direction, thereby pushing on the right hand pin 28 on the'plate 27 to tilt the movable or. driving clutch memher or arm 6 in a clockwise direction, while mal or balanced position.

cam 11 is holdingshoes 7, 7 disengaged from the rim 8 of the clutch wheel. 9. The extent of the angular adjustment of the member 6 is dependent, because of inclination of edge '18, upon the degree. of deflection of the needle 19, andtherefo're upon the extent of 1 movement of the member L. Thecam 11 soon allows, because of further movement shoes 7, 7 again to grip the rim 8 of disk 9, and thereafter the left hand cam 30 enof the continuously rotating shaft 4, the

gages the left ear 29, which has been elej vated by the angular adjustment of the member 6, pushing downwardly upon the ear 29, due to continued rotation ofthe cam 30 by shaft 4, restoring the arm 6 to horizontal position indicated; but in so moving back to normal position the member 6 carries with it the clutch disk 9 in a counterclockwise direction, thereby rotating the shaft 10, and the'disk 32 carrying the resistance R This movement of the resistance R changes the value of the current flowing through the rebalancing coils fi and n in such wise that the member L is returned to or toward the nor- If this single automatic adjustment of the resistance R eifects are-balance or restoration of-the member L to normal position, the member a will have been restored to normal position,

,for which the impedance bridge is balanced and the galvanometer needle 19 has returned to normal position of zero deflection. If,

however, the re-balance has been only partially effected, 'the galvanometer needle 19 will bontinue to deflect toward the right, but to lesser extent, because the impedance "bridge is less out of balance because of return of the member e toward normal or balanced position. The needle 19 will, however, durln-g the next cycle of operation ofthe mechanism described; be again clamped between the edges 18 and 22, again angularly adjusting the member 6, but to lesser degree because of the now lesser deflection of needle 19, and ,as a result the disk 32 will again be rotated-in ',the same direction as before but by lesser increment, and this will again effect a further adjustment of the current through the coils n and n returning the member L fart-her toward normal or balanced position. And so on, there may be any number of movements of the disk 32' until a re-balance is effected, the rotation of the shaft ubeing at least slow enough'to allow ample time for re-balancing.

Similarly, if the member L moves in opposite direction, to that above assumed, the needle 19 will deflect toward the left, with action similar to that above described, ex-

cept that the direction of rotation of the re sistance R with respect to its contact w will be opposite to that above assumed.

.Upon continued rotation of thesha'ft 4 and the co-acting parts, the shaft u carrying the resistance r with the source of direct cur-J .Fi 1, whereby the the switch disks t and the cam 49 will have rotated to such position that the cam follower 50 will have left cam surface 52 and ride u n cam surface 51, thereby rotating the ell crank lever 44, 45, Fig. 10,

clockwise direction upon its pivot 46,

' switch 9 .1n serles with conductors p and s;

and simultaneously, its field coil f is con-- nected through conductors w and w through rent D, which latter, however, is continuing to deliver the same magnitude of current asbefore through the resistance r and coils n and n holding or tending to hold the member L in or toward balanced position,

- the ammeter or other instrument B Serving equal the fall of by its indications to give the current strength or any other reading dependent upon such current strength.

If now the fall of potential across the resistance ,1 due" to the aforesaid current through the balancing coils n, n is equal to the fall of potential through the resistance R between the contact p and the point of connection to the resistance R of the con ductor s, the galvanometer will ,not deflect, and the marker 56 of the recorder will not be moved either toward the right or the left, but will continue to make a mark uponthe paper P atsuch position transversely thereof as'corresponds with the strength of current through resistance r and coils 7, n

,If, however, the fall of potential between the terminals of the resistance o does not potential in the left hand portion of the resistance R, the galvanometer will deflect in such direction as to cause, by the mode of operation above described, rotation of the disk 31 insuch direction as'to so .changethe position of the contact p with respect to the resistance R as to effect a fall of potential in the portion of the resistance R to the left of the contact p, Fig. 1, equal to or approaching equality with the difference of potential between the terminals of the resistance 1", the apparatu's continuing automatically to move the disk 31 and resistance R until equality is reached. Since pulley 53' moves with disk 31, the marker 56in the meantime traverses the paper P to an extent proportional to the;

movement of the contact 12 with respect to/- resist-ance R". Or if the deflection of the galvanometer is in direction opposite to that above assumed, the resistance R will be moved in opposite direction until a balancev is obtained, the marker 56 in such case also moving in opposite direction to that above. assumed. L

Accordingly the mechanism described operates automatically alternately as a controller to effect adjustment of the strength of current through the coils n, W, and to make a record dependent upon or representative of that strength of current.

mechanism as above dcscribedit is apparent, since the magnitude of the galvanometer deflection is dependent upon the magnitude of deflection of the member L, that the rate of change of the re-balancing' forceexerted "upon the member L, as by coils n, 41 or equivalent, is proportional to the amount the member L has departed from predetermined, normal or balanced position. That is the greater the unbalance or departure of the.

From the operation of .the automatic delivered by the battery 0 through the. po-, 7

tentiometer resistances; it accordingly is desirable, from fume to time, because of change in the current delivered by battery 0,

which may be an ordinary primary battery or storage battery, to return the current strength to the necessary of predetermined value. .To this "end the switch 9 may be v w1thd rawn from'contact p", in which posi- .tion it has been above assumed, into enga ement with contact g whereby the mova le coil of the galvanometer G, with the switch disks t in the position last above assumed, is brought into circuit with the standard cell, S and resistance "1", the latter servin to prevent too great a current flow from cefi S.. The resistance 1" may then be adjusted to cause zero deflection of the movable coi of the galvanometer G, in which case the correct current strength will be flowing from battery '0 through the potentiometer circuit.

In case the arrangement of either Fig. 2 or Fig. 4 is employed in lieu of the impedance bridge shown in'Fig. 1, the cam 'i is rotated at uniform speed suitably proportioned to the speed of the shaft 4, the cam a" being so positioned on its driving shaft 5 that the current .controlled by theinterrupter h is either established or broken just before the galvanometer needle 19- is clamped by the above described mechanism.

As an example of'a mode of use of the' apparatus hereinbefore. described involving a member such as L, and as involving a fea- Rferring to Fig. 11, there is illustrated 'ture of my invention, reference may be had" to the measurement and, recording of the mechanism, some of .which, per se, is not my invention, but whic-h, or an equivalent thereof, in the combination described,-is comprehended by my invention.

In Fig. 11, E is. a pipe or conduit with which is associatedany suitable means for producing a differential pressure varying with the rate of flow of the fluid. In the example illustrated, there is employed a plate y having the orifice a. With the interior of the pipe on opposite sidesof the orifice plate communicate the pipes 6 6 and 67 communicating, respectively, with the chambers 68 and 69 formed within the casing structure 70. The chambers 68 and 69 aredivided from each other by the flexiblev diaphragm 71, to which is connected the vertical lever 72 havinga knife edge hearing at 73 and. controlled by spring 74 adjustable by,

screw 75. Within the chamber 68 upon knife edges 76 is pivoted the vertical lever or member L, corresponding with the member L 'hereinbefore referred to. On its threaded upper end is adjustable the counter-weight 77. Adjacent its lower end it carries the re-balancing coil n'connected in series with the co-acting coils n and n these.

latter coils preferably being disposed outside of the casing 70, Which may be of nonmagneticmaterial. These three coils co-act substantially in the manner described in connection with Fig. 1, whereby current passed through them causes such reaction between the coils as to control the position of the lever L At its "lower end the chamber 70 has the lateral extension chambers 78 and 79, within which is disposed the "member 6 of magnetizable material. Disposed outside of the chamber 70 and surrounding the aforesaid lateral chambers 78 and 79 are the impedance coils C and C of the character indicated in Figs. 1 and 2 connected in different arms of the impedance bridge. The lateral chamber forming members 78 and 79 are preferably of insulating material, and are held in position by the nut members 80 and 81 threaded into the,,casing 70.

. Connected at its one end to the lever 72 is the metal wire or ribbon 82 secured at its other end in the threaded member 83 extending through the small bracket 84 on lever L, a nut 85 threaded on member 83 serving to place the member 82 under suitable ten- .SlOl'l.

Vith the coils C and C of Fig. 11 suitably connected in an impedance bridge or equivalent. and the coils n, n and 7& con' nected in circuit as indicated at n and n in Fig. 1, the apparatus will operate as follows:

\Vith the liquid flowing from left toward the right through the orifice 2, there will' exist on opposite sides of the orifice different pressures, which are communicated by 69. The higher pressure is exerted in chamber 68, and the difference inpressure on opposite sides of thediaphragm 71 causes a I force to be exerted upon the lever 72. which through the wire or ribbon 82 communicates a force to the lever L, such force being dependent upon the rate of flow of fluid In Fig. 12 is shown a modification of the structure of Fig. 11 in that in lieu of impedance coils C and C there are employed contacts 86 and 87extending through the wall of the casing and insulated therefrom, the member e on the endof the lever L being adapted to engage either contact'to close a control circuit, such,' for example, as may be employed to effect control of the galvanometer G of the automatic mechanism.

By employing a sensitive galvanometer in the arrangementsihereinbefore described, it is possible in the impedance bridge and equivalent circuitarrangemcnts to employ current or currents of such small magnitude that the force exerted thereby upon the member 6 will be of so low an order of magnitude as to cause substantially no effect upon the member L and so introduce substantially no error. ,For example, for a position of balance of the member L the coils C, C or the primary coils la, 70 may be so proportioned, wound and connected that their net effect u qon the 'co-acting member 6 is substantially n1 It-will' be understood that in lieu of adjustable resistance for varying or adjusting the magnitude of alternating'or fluctuating current, any other suitable means may be employed :for adjusting or varying the strength of the alternating, pulsating or fluctuating current.

What I claim is:

1. Thecombination with a member movable from its normal position in response to a quantity to be measured, of an inductive winding- .and a magnetizable" member movable relatively to each other, one of them movable with saidunovable member, a deflecting member, means causing deflection thereofin response to change of inductance to a. quantity to be measured, of an induc- 65 the pipes 66 and 67 to the chambers 68 and tire winding vand a magnetlzablemember movable relatively to each other, one of them movable with said movable .member, a deflecting member, means causing de flection thereof in response to change of inductance of said winding, a movable structure, a source of power, a dizengageable connection between said movable structure and saidsource of power, means controlled by said deflecting member and controlling ing with said windings, a

said disengageable connection, and means for returning said movable member toward normal position controlled by said movable structure. v

3. The combination with a member movable in response to a force-representative of a. uantity to be measured, of an impedance brldge having windings connected in different b-ridge arms, a magnetizable member movable With said movable member co-actalvanometer controlled by said bridge, an means controlled by said galvanometer for exerting on said movable member an opposing force.

4. The combination with a member movable in responseto a force representative of a quantity to be. measured, of an impedance bridge having windings connected in different bridge arms, movable with said movable member co-acting with said windi gs, a galva-nometer controlled by said bri ge, and electromagv netic means comprising a fixed element and an element movable with said movable mem ber for exerting thereon an opposin force, said electro-magnetic means controled bysaid galvanometer.

5. The combination with a" member mov- "able in response to a force representative of "acting with said windings, a

- ent bridge arms,

a quantity to be measured, of an impedance bridge having windings connected in differa magnetizable member movable member and coalvanometer controlled by said bridge, an electromag netic means comprising'a fixedfelement and an element movable with said movable mom-i movable with said and means controlled by said galvanometer' for varyin the strength of the current enera quantity; to be and said source of power,-means controlled gizing sai electromagnetic meansfif v 6. The combination with-a'maember 'mo-v-- ableiin response to a force representative-of measured, of an impedance bridge having windings connected in "different bridge arms, a magnetizable member movable with said movable member and conetic means comprising a fixed element and an element movablesvith said movable mcmber for exerting thereon an opposing force, means for varying thestr'ength of current for-energizing said electro-magnetic means, a movable structure for actuatin'gsaid current varying means, a,source of power, a, disengageable connection between said source a magnetizable member of power and saidmovable structure, and A means controlled by said galvanometer and controlling said disengageable connection.

7 The combination with a member movable in response to a force representative of a quantity tosbe measured, of an impedance netic means comprising a fixed element and. an element movable with sald movable mem ber forexerting thereon an opposing force, means for varylng the strength of current for energizing sald electro-magnetic' means,

bridge having windings connected in difamovable structure for actuating said cur-' rent varying means, a source of power, a disengageable connection between said source of power and said movable structure, means controlled b said galvanometer and con trolling sai disengageable connection between said current varying means and said movable structure, and means controlling the same actuated by said source of power.

disengageable connection, a

8. The combination with a member mov-,

,able in response to a force varying in accordance with variations of a quantity, of a galvanometer, electrical .means controlling said galvanometer and comprising relatively movable "non-contacting members one of which is movable with said movable member, elec-tro-magnetic means for exerting on 4 said movable member an opposing force,

means for varying the current energizing said electro-magnetic means, a -source of power, a disengageable connection between said source of power and said current vary ing means, and means controlled by said gal- .able connection.

vanom'eter and controllingsaid disengage cordance. w th variations of a. quantlty of a galvanonieter, electrical fmeans controlling said galvanometer' and comprising relatively movable members oneof them movable with said movable member, electro-magnetic t means for exerting'on said movable member an opposing force, means for varylng the current energizing sa d electro-magnetic means, switchlng mechanism for. disssociat ing said galvanometer from said electrical means and for associating it with the circuitof said electro-m'agn'etic means, a source of power, a movable structure, a disengageable between said movable structure electrical means actuated by said movable' structure when said galvanometer is assomated with said electro-magnetic means, and a marker actuated'by said movable structure.

10. The combinationwith a member movable in response to .a force varying in accordance with variations of a quantity, of a galvanometer, electrlcal means controlling said galvanometer and comprising relatively movable members one of them movable with said 'movable member,- electro-magnetic means for exertin on said movable member an opposing Force, means for varying thecurrent energizing said electro-magnetic means, switching mechanism for dissociating saidgalvanometer from said electrical means and for associating it with the circuit of said electro-magnetic means, a source of power, a movable structure, a disengageable connection between'said movable structure and said source of power, means controlled by said galvanometer and. controlling said disengageable connection, said current varying means actuated by said movable structure when said galvanometer is associated with said electrical means, variable electrical means actuated by said movable structure when said galvanometer 1s assoclated with said electro-magnetic means, and disengageable mechanical connections between said movable structurev and said current varying means and saidvariable electrical means actuated in unison with'said switching mechanism. a 11. The combination with a member movable in response to a force varying in accordance with variations of a quantity, of a galvanometer,.,electr1cal means ,COILtI'OllIIIg said galvanometer and comprising relatively movable members one of them novable with said movable member, electro-magnetic means for exerting on said movable member an opposing force, means for varying the current energizing said electro ma'gnetic means, switching mechanism for dissociating said galvanometer from said electrical means and for associating it with the circuit of said electro-magnetic means, a-source of power, a movable structure, a disengageable connection between said movable structure and said source of power, means controlled by said galvanometerandcontrolling said disengageable connection, said current varying means actuated by said movable structure when said galvanometer is associated with said electrical means, variable electrical means actuated by said movable structure when said galvanometer is associated with said electro-magnetic means, and disengageable mechanical connections between said movable structure and ,said current varying means and said variable electrical means actuated by said source of Y power in unison with said switching mechameans, a

said movable member against said differemtial pressure, and means for varying the cur-' rent energizing said electro-magnetic means, said current varying means actuated by said movable structure.

132' Apparatus for measuring the flow of a fluid comprising means producing a difl'erential pressure dependent upon the magni- "tude of flow, a mbvable member controlled by said differential pressure, electrical means controlled. by said movable-member, a galvanometer controlled by said electrical means, a source of power, a movable structure, a disengageable connection between said source of power'and said movable structure, means controlled by said galva ometer and controlling "said disengageable onnection, electro-magnetic means for balancing c said movable'memberagainst said 'ditferential pressure, means for varying the current energizing said electro-magnetic means, said current varying means actuated bysald mov-" able structure, and a marker actuated bysaid movable structure.

14. Apparatusfor measuring the flow of a fluid comprising means producing a diiierential pressure dependent upon the magn i-' tude of flow, a movable member controlledby said "differentialpressure, electrical means controlled by said movable member. a galvanometer' controlled-by said electrical source of power, a movable structure, a disengagcable connection between said source of power and said movable structure, means controlled by said galvanometer' and controlling said disengageable connec tion, 'electro-magnetic means for balancing said movable member against said difi'erential pressure, means for varying the current energizing said electro-magnetic means, said current varying means actuated by said movable structure, a circuit influenced by the strengthof current, energizing said electromagnetic means, switching mechanism for connecting said 'galvanometer with said circuit, variable electrical means in said circuit actuated by said movable structure, and a marker actuated bysaid movable structure. v v

15. Apparatus for 'measuring the flow of a fluid comprising means producing a differential pressure dependent upon the mag- 'nitude of flow, a movable member controlled by said difl erential pressure, electro-magnetlc means for re-balancing said member, a galvanometer controlled by the magnitude of current energizing said electrormagnetic netic means ogre-balancing said member, a

galvanometer controlled by the magnitude of current energizing sald. electro-magnetic means, a source of power, a movable structure, a disengageable mebhanical connection between said source of power and said-mov-- able structure, means controlled by said-galvanometer and controlling said disengage able connection,

variable electrical means actuated by said movable structure "tending to re-balance said galvanometer, and a marker-,- actuated 7 by said movable structure.

("17. The combination with a member movable in response to a force representative of a quantity to be measured of variable electrical means controlled by said member, a

- galvanometer controlled by said means, electromag netic able member, I

means for balancing said mova" recorder controlled by the current energizing "said electro-magnetic 'means, and means controlled by said galvanometer and in turn controlling variatio of said curreiit; I i 18. The combination with a member mov able in response to a force r'eprese ative of a quantity to be measured, ofelectro-magnet c means for re-balancing said member, electrical means varied by said movable member, a galvanometer, means for-associating said ga vanometer alternately with said electrical means and thecir cuit of said electro-magnet1c means, and automaticv mechanism controlled by said 'galvanometer for 20; The combination with a member movable from its normal position in response to changes in magnitude ot a quantity, of variable electrical 'means controlled by said member, a alvanometer responsive to changes eflected by saidvva'riable electrical means, and means fbr (returning said movable member toward normal position controlled by said galvanometer.

21. The combination with a member nfovable in'r'esponseto changes in magnitude of a quantity, of a circuit, means controlled by said'mefnber for varying the current in said circuit, a second memberflheans for moving said second member in response to changes "of said current; means for exerting, on said first-movable member a force opposing that causing itsmbvement, and a circuit control-.

ling said last named ans controlled by saidsecond' movable member.

. 22. The combination with a member mov ,able iii/response to changeshin magnitude of a quantity, of variable electrical means controlled by said member sponsiveto changes efi ected by said vari able electrical means, a circuit controlled by said galva nometei',and means controlled )by' said circuit and exerting on said movable member. a force opposing that causing'its movement. 6

23. The combination with a member mov;

able in response to changes in magnitude of a quantity, of 1- ClfCu1t, a galvanometer controlled by said circuit and having a deflecting member;- means controlled by said first named member for varying the current a galvanometer rein said ClI'CL it a movable structure, a source of power, r nection between said source of power and said movable'structure, means whereby sai mechanical connection is controlled by said deflecting member, and means controlled-by said movable structure and controlling exertion on said first named movable member of a force opposing that causing its movement.

24. The combination with a member movable in response to changes in magnitude of a quantity, of a galvanometer having a defleeting member, a circuit controlling said alternately varying the strength of the curgalvanometer, a source of fluctuating current rent energizing said electro-magnetic means cans for moving said sec-' in said circuit, a reactance in' said circuit controlled by said movable member, a movable structure, a source of power, a disengageable connection between said source of power and said movable'structure, means whereby said conn'ection'is controlled by said deflecting member, and means controlled by said movable structure and controlling exertion on said first named movable member of 25. The combination with a member movable in response to changes in rate of fluid flow, of a circuit, a galvanoineter controlled bysaid circuit and having a deflecting memdisengageable mechanical cona force opposing that causing its movement.

grass;

' tion between said source of power and said movable structure, means whereby said mecal means, a movable structure, means controlled bysaid galvanometer causing movement of said structure an extent dependent upon the'extent of deflection of saidgalvanometer, and electro-magnetic means controlled by said' movable structure for restoring said movable member toward normal chanical connection is controlled by said deposition.

fleeting member, and means controlled by '30; The combination'with a member movsaid movable structure and controlling exerable from its normal position in response to tion on said first-named movable mem'- .changes in magnitude of a quantity, of vari- .ber of a force opposing that causing its able electrical means controlledthereby, a

movement. galvanometer controlled by said electrical 26 The combination with a member movmeans, a movable structure, means conabiefrom its normal position, of means movtrolled by said galvanometer causing moveing said member to different extents in revment of said structure an extent dependent sponse to different magnitudes ofa quantity, upon the extent of, deflection of said galvaa movable structure, a source of power, a nometer, means for restoring said movable mechanical coupling between said source of, member toward normal position controlled powerand said movable structure, means by said movable-structure, and means conwhereby said movablemember controls said trolling said last named means to effect said coupling to effect movements of said mov-- return movement of said movable member able structure, means causing the extents of at a ratedepending uppn extent of movesaid movements of said movable structure ment of said movable structure. to correspond with the xtents of movement/ 31. The combination with a member mov- ,o'f saidmovable member, means for restorable from its normal position in response ing' said movable member. toward, normal tochanges inunagnitu'de of a quantity, of position controlled. by said movable J strucmriable electrical meanscontrolled thereby, ture, and means whereby said restoring f a galvanometer controlled by said electrical means operates at a rate depending upon extent of movement of said movable structure.

27. The combination'with a member movable from its normal positiomot' means moving saidm-ember to different extents in response to different magnitudes of a quntity, a movable structure," a source of power, means controlled by said movable member for effecting movement of said movable structure by said source of power, means causing the extents of movement of said movable structure to correspond with the ex {tents of movement of said movable member, means for restoring said movable member toward normal position controlled by said movable structure, and means whereby said restoring means operates at a rate depending upon'aextent of movementof said movable structure. u

28. The combination with a member movable in response'to changes in magnitude of a quantity, of variable electrical means controlled thereby, a galvanometer controlled by said electrical means, a movable structure, means controlled by said galvanomete'r causing movement of said structure an extent dependent upon the extentgof deflection of said galvanometer, and means controlled by said movable structure controlling exertion on said movable member of a force opposing that causing its movement. Y 29. The combination witha member movable from its normal position in response to changes in magnitude of a quantity, of variable electrical means controlled thereby, a galvanometer controlled by said electriupon the extent of deflection of said gal- Vanometer, electro-magnetic means controlled bysaid movable structure for restoring said movable member toward normal position, and means controlling said electro-magnetic means to effect said return movement of said movable member at a rate dependent upon the extent of movement of said movable member. r

32. The combination with a member mov able in response to changes in rate of fluid flow, of a galvanometer having a deflecting member, a circuit controlling said galvanometer, a source of fluctuating current in said circuit, a reactance in said circuit controlled by said movable member to cause deflection ofsaid deflecting member in accord with changes "in rate /of fluid flow, a movable structure, a source of power, a disengageable able structure and controllin exertion on said first named movable member of a force opposmg that causing its movement.

38. The combination with a member mov- .able from its normal position in response said windings upon said galvanometer, and -means controlled \by said. galvanometer for exerting on said movable member a force for restoring it toward normal position.

34. The combination with a member. movable from its normaliposition in response to changes in magnitude of a quantity, of a plurality of windings and aqsource' of fluc tuating current therefor, "a galvanometer controlled by the current in said windirigs, a member movable by said movable member for changing the efiect of said windings upon said galvanometer, means controlled by said galvanometer, for exerting onsa'idmovable member a force for restoring it toward normal position, a second circuit, means ior aliectingthe current in said seoo to an extent corresponding with the magnitude of said forcefand means contrplled by the current saidsecond circuit torproducing a record of saidmhanges in -magnitude of said quantity.

The combinationwith a member movable from its normal position in response'to changes in magnitude of a quantity, of a plurality of windings and a source Offluctuating current therefor, alvanometer controlled by the curr nt'in said windings,

a member movable by said movable member for changing the effect otwsaid windings uponsaid galvanometer, means controlled by said galvanometer for exertingon said movable member a force for restoring it toward normal position, asecond circuit, means. for affecting the current in .said second circuit toan extent corresponding 1 with the magnitude of said force, means for shifting the connections ofsaid galvanometer to bring it into; the influence. of said circuit, and means controlletbby said galvano'meter for recording said changes in magnitude of said quantity.

, 36. The combination with a member movable'from its normal position in response to changes in magnitude vof a quantity, of variable electrical means controlled by said member, a galvanometer controlled by said electrical means, means controlled by said galvanometer forexerting on said movable member a force for restoringit toward normalposition," a circuit, means affecting I the current in said c'ircuit'to an extent corr sponding with the magnitude of said force", and a movable structure controlled by said circuit. f'

- 37. The combination with a member movable from its normal position in response to changes in magnitude of a quantity, of vari-' able electrical means controlled. by said member,a galvanometer controlled by saidelectrical means, means controlled by'said galva-' nometer for exerting on said movable member. a force for rest'oring it toward normalposition, a circuit, means affecting the current in"'said circuit to an extent corresponding nd circuit.

with'the magnitude of said force, means for ,shifting the connections of said galvanometer to bring it into the influence ofsaid circuit, an a movable structure controlled by said galvanometer.

38. The combination with a member movable from its normal position in response to changes in magnitude of a quantity, of variable electrical means controlled by said member, a galvanometer controlled by said electrical means, means controlled by said galvanometer. for exerting on said movable men ber aforcefor restoring it toward nor mal position, a circuit, means affecting the current in said circuit to .an extent corresponding with the magnitude of said force, means .for shifting the connections of said galvanometer to=bring it into the influence of said circuit, a movable control structure, a

ibetyveen said source of power and said movable structure, and means controlled by said galvanometer and controlling said disen gageable-connection. v a

89. The combination with a member movable from its normal position in response to changes in magnitude of a quantity, of

variable electrical meansrcontrolled by said member, agalvanometer contnolled by said member a force for restoring it toward -nor-, mal position, a, circuit, means affecting the current in said circuit to an extent corre- 'sponding' with the magnitude of said. force,

means forjshifting the connections of said galvanometer to bring it intothe influence of said circuit, a movable structiireya source of power, a disengageable connection b e tween said source of power and said movable structure, hneans congrolled by said galvanometer and controlling said disengageable connection, and 'a' marker controlled by said movable structurep 40. The combination with amemher movable from its normal pOSLiJlOD in response to source (if power a disengageable connection I electrical means, means controlled by said galvanometer for exerting on said movable changesin magnitude of a quantity, of a galvanometer,- v neans whereby said galvanometer is controlled by said movable member,-'a movable structure, a source of power,- a' disengageable connection between said source of power and said movable structure, means controlled by sa id galvanometer and controlling said disengageable connection, electrical means for restoring said movable 'member toward normal position, means for varying thecurrent of said electrical .means, and a disengageable connectionbetween said current-varying imeans and said movable structure.

41. The sombination'with a member movable from its normal position in response to changes inmagnitude of'a quantity, of"- a galvanometer, means whereby said galvanon eter. is

controlled by said movable member, a movable structure, a source of power, a discngageable connection between said source of power and said movable struc ture, means controlled by said galvanometer and controlling said disengagezble connec tion, electrical means for restoring said mov able member toward normal position, means for, varying the current of said electrical means, and means periodically coupling said current-varying means to said movable structure.

42. The combination with a member movable from its normal position in response to changes in magnitude of a quantity, of a galvanometer, means whereby said galvanometer is controlled by said movable momher, a movable structure, a source of power, a disengageable-connection between said source of power and'said movable structure, means controlled by said galvanometer and con;

trolling said disengageable connection, e1cc tr o-magnetic meansfor restoring said movable member toward normal position, a circuit, variable electrical means in said circuit, means for shifting the connections of said galvanometer to bring it into the influence of said circuit and of the current of said electro-magnetic means, and a disengageable connection betweensaid movable structure and said variable electrical means.

43. The combination with a member movable from its normal position in response to changes in magnitude of a quantity, of a galvanometer, means whereby said galvanometer is eontrolledby said movable member,

. a movable structure, a source of power, a disengageable connection between said source of power and said movable structure, means controlled by said galvanometer and con-- trolling said disengageable connection, electro-magnetic means'for restoring said movable member toward normal position, a circuit, variable electrical means insaid circuit,

' means for shifting the connections of said galvanometer to bring it into the influence of said circuit and-of the current of said electro-magnetic means, and means for periodically coupling said variableelectrical means to said movable structure.

44. The combination with a member movelectro-magnetic means for restoring said movable member toward normal position, a circuit, variable electrical means in said c rcuit, means for shifting the connections of said galvanometer to bringit into the in-,

fluence of said circuit and of the current of said electro-lnagnetic means, a disengageable connection between said movable structure and said variable electrical means, and a marker movable in unison with said variable electrical means.

45. The combination with a member movable from its normal position in response to changes in magnitude of a. quantity, of a galvanometer, means whereby said ga1va nometer is controlled by said movable member, a movable structure, a source ofpower,

, a disengageable connection. between said source of power and said movable structure, means controlled by said galvanometer and controlling saiddisengagcable connection, electro-magnetic 'means for restoring said mov'able member toward normal position, a circuit, variable electrical means insaid circuit, means for shifting the connections ol? said galvanometer to bring it into the influence of said circuit and of the current of said electro-magnetic means, means for periodically coupling said variable electrical means to said' movable structure, and a marker movable in unison with said variable electrical means. I

46. The combination with a member movable in response to changes in magnitude of a quantity, of a galvanometer, means whereby said galvan-ometer'is controlled by said movable member, a movable structure, a source of power, a disengageable connection between said source of power and said mov- 47. The combination with a member mov-- able in response to changes in magnitude of a quantity, of a galvanometer, means where by said galvanometer is controlled by said I movable member, a movable structure, a source of power, a disengageable connection between said source of power and said mo-vable structure, means controlled by said galvanometer andcontrolling said disen'gageable connection, a source of current, means responsive to changes in said current for exerting force upon said movable member, means for varying said current, acircuit, variable electrical means therein, means for shifting the connections of said galvanometer to bring it able structure, means controlled by said galvanometer and controlling said disengageable connection, a source of current, means responsive to changes 1n said current for exerting a force upon said movable-member,

means for varying said current, a circuit, variable electrical means therein, means for coupling said current-varying means and said variable electrical means alternately to i said movable structure, and means shifting the connections of said galvanometer to bring it into the influence of said and the current of said force-exerting means simultaneously with coupling of said variable'electrical means to said movable strueture. I v

49. The combination with a casing, of afluid connection thereto, a deflecting member in said casing, means causing deflection of said member in response to changes in flow of a fluid, a core moved by said deflecting member, a winding on the exterior of sald 'casmg co-acting with sand core for varying the impedance of the circuit ofi said winding in resppnse to changesof said flow, and electro-magnetic means or exerting a restoring, force on said deflecting member-comprising 'a member carried by said deflecting member, and a co-acting member'on the exterior of said casing. 50. The combination with a movable member, of means moving said member in re-- sponse to changes of pressure, a galvanometer, means causing deflection of said gal- 'vanometer in response to movement of said I movable member, a movable structure, a-

? "source of power, a di sengageable connection between said movable-s'tructifi'e and said 1 source"of power, means controlled by said galvanometer and controlling said disengageable connection, and controlmeans actuated by said movable structure.

51. The combination with a member, of ,means movmgvsaidf member in response to changes of pressure, a galvanometer, means .-controlled by said movable member and controlling said 'galvanometer, a movable structure, a source ,of power, a-dlsengagea'ble connect-ion between said movable structure and said source of power, means controlling'said connection and, contro1led by said galvanometer, electro-magnetic means controlled control force onsaid movable member, and control means actuated by said movable structure;

52. The combination with a member-mo"- able in response to changes in magnitude of a quantity, of a source of fluctuating current, a galvanometer associated therewith, reactive means controlled by said movable member for varying the deflection of said galvanometer in accordance with changes in by, said movable structure for exerting a tity, and a circuit controlled by said movable structure.

. 53. The combination with a member movable in response. to changes in magnitude of a quantity, of a source of fluctuating current,

a galvanometer associated therewith, re

' is displaced under control of said galvanometer extents corresponding with extents ,of change in magnitude of said quantity, a

circuit controlled by said movable structure, and means in said c1rcu1t for exertlng a Aforce on said movable member.

' 54. The combination with a member movable from its normal position in response to changes in magnitude of a quantity, of a source of fluctuating current, a galvanometer associated therewith," reactive means controlled by'sald movable member for varying the deflection of said galvanometer in accordance with changes in-magnitude of said quantity, a movable structure, means wherebysaidmovable' structure is displaced under controlof said galvanometer extents correspending with extents of change in magnitude of said quantity, a circuit controlled by said m vable structure, and means in said,

circuit or exerting on said movable member a force tending tonreturn it tonormal position. 55. The combination with a -member movable in response to changes in magnitude of p a quantity, of a source of fluctuating current, a galvanometer associated therewith,

reactive 'means'colitrolled by said movable member for varying'the deflection of said galvanometer'in accordance with changes in magnitude of'sard quantity, a movable structure, a source of power, a disengageable mechanical connection between said source of power and said movable structure, and

means controlledby said galvanometer controlling -said disengageable connection for effecting displacements of said movable structure whose extents correspond with the extents of change .in 'njiagnitude of said quantity.

56. The combination with a member movable in response to changesin magnitude of a quantity, of a source of fluctuating curmechanical connection between said source of power and said movable structure, means controlled by aid galvanometer controlling said disengageable connection for eifecting displacements of said movable structure whose extents correspond with the extents of change in magnitude of said quantity,

and control mechanism controlled by said movable structure.

57.-Control apparatus comprising a defleeting member, means responsive to changes in rate of flow of a fluid for-effecting movements of said'deflecting member to extents corresponding with diiferent rates ot' flow, a movable structure, a source of power, a disengageable mechanical connection between said source of power and said movable struc ture, means controlled by sai clxleflecting member for effecting displacements of said movable structure to extents corresponding with different rates of flow, and arecorder controlled by said movable structure;

58. Control apparatus comprising a deflecting member, means responsive. to changes in rate of How of a fluid for effecting movements of said deflecting member to extents corresponding with different .rates of flow, a movable structure, a source of power, a disengagea-ble mechanical connection between said source of power, and said movable structure, means controlled by said deflecting member for effecting displacements of said movable structure to extents corresponding with different rates of flow,

and control means controlled by said movable structure. 7

59. The combination with means movable in response to changes in rate of flow of a fluid, of a circuit and a galvanometer therein, means whereby said galvanometer is 'con trolled by said first-named means, a movable structure, and means whereby said, movable structure is displaced under control of said galvanometer extents corresponding with extents of change in rate of How of said fluid. is

60. The combination with means movable in response to changes in rate of flow of a fluid, of a circuit and a galvanometentherein, means whereby said galvanometer is controlled by said first-named means, a movable structure, means whereby said movable structure is displaced under control of said galvanometer extents corresponding with extents of change in rate of flow of saidfluid, and a recorder controlled by said movable structure. y

61. Thecombination with a member deflecting in-response to changes in magnitude of a quantity, of a circuit controlled thereby, means controlled by said member for varyii'ig the current in said circuit, a second deflecting member controlled by said currentand means controlled by said second deflecting member exerting a force on said first name t deflecting member for effecting rebalance of said deflecting members.

62. The combination with a member defleeting in response to changes in magnitude oi a quantity, of a circuit controlled then.

by, means controlled by said member for varying the current in said circuit, a second deflecting member controlled by said current,

means controlled by said second deflecting member exerting a force on said first named deflecting member for effecting rebalance of said deflecting members, a movable structure controlled by' said second deflecting member, and a recorder controlled by said movable structure.

, 63. The combinat on with a member deflecting from its normal position in response to changes in magnitude of a quantity, of

a circui'tcontrolled thereby, means con v trolled by said-member for varying the current in said circuit, a second deflecting member controlled by said current, a movable structure controlled by said second deflecting member, and means controlled by said movable structure for exerting on said first named deflecting member a force tending to move said first named deflecting member toward normal position.

64. Thecombination with a member de-l fleeting inresponse to changes in magnitude of a quantity, of a circuit having a galvanometer therein and controlled by said member, means exerting a force on said deflecting member, and mechanism controlled by said galvanometer and controlling said force to correspond with said changes in magnitude of said quantity. y

65. The combination with a member de fleeting in response to changes in'magnitude of a quantity, of a circuit having a galvanometer therein 'andcontrolled'by said member, means exerting on said deflecting member a force opposing its deflection, and mechanism controlled by said galvanometer a d controlling the magnitude of said :force to accord with changes in magnitude of said quantity.-

In testimony whereof I have hereunto .af-

' E L A. KEELER.

fixed my signature this 3 day of May, 1920. 

